Optical disc accommodating case

ABSTRACT

An optical disc accommodating case is provided, which permits quick and smooth accommodation and take-out of optical disc, permits reliable accommodation of the disc without causing contamination or scars and scratches to the disc, and permits coping with an assembling process, in which the disc is automatically loaded by a robot.  
     A disc holder  3  having an optical disc support  7  has a wall  8  to be in contact with the edge of the optical disc  2  for preventing detachment thereof in the horizontal direction. The wall has lock members for preventing upward detachment of the optical disc. The wall with the lock members is flexible, and the lock members are made to be capable of being warped toward the outer periphery to permit the optical disc to be accommodated in the downward direction in the disc bottom support.

FIELD OF THE INVENTION

[0001] This invention relates to optical disc accommodating cases for accommodating a DVD, a musical compact disc or such an optical disc as a computer CD-ROM and, more particularly, to optical disc accommodating cases, which are contrived such as to permit quick and smooth accommodation or take-out of an optical disc, permits reliable accommodation of an optical disc without causing contamination or damage to the disc and permits automation of the loading of an optical disc in an assembling step.

PRIOR ART

[0002] A prior art optical disc accommodating case for accommodating an optical disc comprises a disc holder for holding the optical disc with the center hole thereof engaged with a boss of the disc holder, a base member for engaging with the disc holder and a lid hinged to one side of the base member. This optical disc accommodating case is simple in construction and is thus extensively used for accommodating musical compact discs and computer CD-ROMs to be sold. Also, a case for accommodating a DVD has an integral structure, in which a holder having the boss and a lid capable of being opened and closed are hinged together.

[0003] In the meantime, recent multi-functional high quality recording media such as DVD require players and discs to have higher dimensional accuracy than conventional compact discs. However, in the prior art optical disc accommodating case for protecting the optical disc, the boss may touch and cause damage, even if slightly, to the inner periphery and the center hole of the disc when the disc is fitted on and removed form the boss of the disc holder. When the inner periphery of the center hole of the optical disc is damaged even slightly, a clearance is generated between the damaged inner periphery and a spindle for rotating the optical disc, resulting in eccentric rotation of the disc or tilting thereof from the intrinsic plane of rotation. This poses a fatal problem that it may result in imperfect reading or writing of data from or in the disc.

[0004] In addition, in the prior art optical disc the optical disc is accommodated in close contact with the disc holder surface. Therefore, the optical disc is hardly brought to a floating state by pushing, even with a great force, the boss of the disc holder which has a spring property for taking hold of and taking out the disc. Therefore, inferior manipulation property in connection with the take-out and accommodation of the optical disc is inevitable.

[0005] Furthermore, when taking out the optical disc, the recording area thereof, of which the touching should be avoided as much as possible, is frequently touched by fingers, resulting in generation of scars and scratches or contamination.

[0006] The inventor earlier proposed, in Japanese Patent Application No. 11-306343 and Japanese Patent Application No. 2000-136889, an optical disc accommodating case, which permits the accommodated optical disc to be very readily taken out without causing scars and scratches or contamination of the recording portion of the disc, as well as permitting the take-out and accommodation of the disc without causing damage to the very important center hole of the disc.

[0007] This prior art optical disc accommodating case is excellent in that it can be conveniently used by the user and is free from the possibility of scars and scratches to the optical disc. However, this optical disc accommodating case has a problem in the automatic loading of the optical disc in it. With musical compact discs or the like, an operation sequence from accommodating the optical disc till packaging is fully automated. More specifically, for loading the optical disc in the case, the disc held by a robot is lowered right downward to bring its center hole into engagement with the boss of the optical disc accommodating case. With the above optical disc accommodating case proposed by the inventor, a lock piece for preventing the detachment of the optical disc interferes with the loading, making it impossible to Load the disc.

SUMMARY OF THE INVENTION

[0008] The invention accordingly has an object of providing an optical disc accommodating case, which permits quickly and smoothly accommodating and taking out an optical disc, permits reliably accommodating the disc without causing scars and scratches or contamination and can cope with an assembling operation, in which the optical disc is loaded in automatic operation by a robot.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009]FIG. 1 is a perspective view showing a first embodiment of the optical disc accommodating case according to the invention;

[0010]FIG. 2 is a plan view showing the first embodiment of the optical disc accommodating case according to the invention;

[0011]FIG. 3 is a fragmentary sectional view showing a lock member in the optical disc accommodating case according to the invention;

[0012]FIG. 4 is a fragmentary perspective view showing a lock member in the optical disc accommodating case according to the invention;

[0013]FIG. 5 is a fragmentary plan view showing the optical disc accommodating case according to the invention in a state before locking the optical disc on lock members;

[0014]FIG. 6 is a fragmentary plan view showing the optical disc accommodating case according to the invention in the state before locking the optical disc on the lock members;

[0015]FIG. 7 is a fragmentary plan view showing the optical disc accommodating case according to the invention in a state with the optical disc locked to the lock members;

[0016]FIG. 8 is a fragmentary sectional view showing the optical disc accommodating case according to the invention in a state before locking the optical disc on the hook members;

[0017]FIG. 9 is a fragmentary sectional view showing the optical disc accommodating case according to the invention in a state that the optical disc is being locked on the lock members;

[0018]FIG. 10 is a fragmentary sectional view showing the optical disc accommodating case according to the invention in the state that the optical disc is locked on the lock members;

[0019]FIG. 11 is a perspective view showing a second embodiment of the optical disc accommodating case according to the invention;

[0020]FIG. 12 is a perspective view showing a third embodiment of the optical disc accommodating case according to the invention;

[0021]FIG. 13 is a sectional view showing the third embodiment of the optical disc accommodating case according to the invention;

[0022]FIG. 14 is a plan view showing the third embodiment of the optical disc accommodating case according to the invention;

[0023]FIG. 15 is a plan view showing a fourth embodiment of the optical disc accommodating case according to the invention;

[0024]FIG. 16 is a fragmentary sectional view showing the fourth embodiment of the optical disc accommodating case according to the invention;

[0025]FIG. 17 is a fragmentary sectional view showing the fourth embodiment of the optical disc accommodating case according to the invention;

[0026]FIG. 18 is a fragmentary sectional view showing the fourth embodiment of the optical disc accommodating case according to the invention;

[0027]FIG. 19 is a plan view showing the fourth embodiment of the optical disc accommodating case according to the invention;

[0028]FIG. 20 is a sectional view showing the fourth embodiment of the optical disc accommodating case according to the invention in an open state; and

[0029]FIG. 21 is a sectional view showing the fourth embodiment of the optical disc accommodating case according to the invention in a closed state.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0030] FIGS. 1 to 10 show a first embodiment of the optical accommodating case according to the invention. Referring to FIG. 1, reference numeral 1 designates the optical disc accommodating case made of a synthetic resin, which is used for a musical compact disc, a DVD, etc. The optical disc accommodating case 1 comprises a disc holder 3 for detachably holding an optical disc 2, a base member 5 with a rear end thereof detachably engaged by a stem 4 of the disc holder 3, and a lid 6 detachably hinged to the rear end of the base member 5 for opening and closing the base member 5, i.e., the top of the optical disc 2. The base member 5 and the lid 6 together constitute a casing.

[0031] The disc holder 3 includes a stem 4 detachably engaging with the rear end of the base member 5 and a disc bottom support 7, which is integral with or a separate member from the stem 4 and can hold the optical disc 2 in a forwardly upwardly tilted state. The disc bottom support 7 extends in an upwardly tilted state form the stem 4 relative to the base member 5 into the space therein. The disc bottom support 7 is made of an appropriate flexible synthetic resin so that it is vertically lockable and can be accommodated in the casing with the lid 6 in the closed state.

[0032] Specifically, when the lid 6 is open, the disc holder 3, which is flexible such that it is vertically lockable about the stem 4 as fulcrum and biased to a forwardly upwardly tilted state, extends in the forwardly upwardly tilted state from the stem 4 to the front end in the space of the base member 5, and holds the accommodated optical disc 2 in a tilted state to permit the optical disc 2 to be suitably taken out and accommodated. By closing the lid 6 into engagement with the base member 5, the disc holder 3 is pushed down by the lid 6, and thus it is accommodated in the optical disc accommodating case 1.

[0033] The disc holder 3 has a disc bottom support 7 formed on top of its front end portion. The disc bottom support 7 has a diametrical dimension such that it can support the optical disc 2 in contact with more than one half of the edge of the disc 2. To prevent detachment of the optical disc 2 toward the stem 4, the disc bottom support 7 also has a wall 8 provided as a single member or a plurality of divisions (i.e., two divisions in this embodiment) on the stem side such as to be in contact with part of the edge of the optical disc 2. Also, to prevent detachment of the optical disc 2 upward form its top, the disc bottom support 7 has three, i.e., opposite end and central, lock members 9 such as to extend over its top for clamping part of the edge of the optical disc 2 in cooperation with a ridge 10.

[0034] As shown in FIGS. 3 and 4, the lock members 9 each have an end locking portion 9 a. In order that the lock members 9 are capable of flexing in the circumferential direction of the optical disc, each lock member 9 has its one side separated from the wall 8. (FIG. 4 shows the end lock member at an end, so that no separated wall is present.) The other side wall 8 is formed with a thin flexible portion 9 b, which is formed by cutting off a lower wall portion so that it is spaced apart from the disc bottom support 7. As shown in FIGS. 8 to 10, each end locking portion 9 a has an upper taper portion 9 c downwardly tapered (with either a curved or a straight cross-sectional profile) toward the inner periphery of the optical disc 2. When the end locking portion 9 a is touched by the edge of the optical disc 2 being lowered, it is flexed toward the optical disc edge to let the optical disc 2 be continually lowered. The bottom of the taper portion 9 c is constituted by a stepped locking surface 9 d substantially parallel to the accommodated optical disc top, thus holding the optical disc 2 once locked to be held in this state without being upwardly detached.

[0035] The ridge 10 noted above is provided on the top of the disc bottom support 7 slightly on the inner side of the wall 8. The ridge 10 has a triangular cross-sectional profile so that it can be in contact with only the edge of the optical disc 2, i.e., a non-recording portion thereof, thus avoiding damage to the recording portion of the optical disc 2 due to otherwise possible contact with the top of the disc bottom support 7. The central portion of the disc bottom support 7 is greatly notched from the front end portion because it is not in contact with the optical disc 2 and also has no bearing on the accommodation and take-out of the disc 2.

[0036] The front end portion of the disc bottom support 7 has opposite side stoppers 11 to prevent detachment of the optical disc 2 in the forward direction. The stoppers 11 have a height level greater than the wall 8 so that the optical disc 2 can be taken out by moving the disc 2 in an upward direction toward the front such as to raise the front portion of the disc 2.

[0037] In the optical disc accommodating case 1 having the above construction according to the invention, the optical disc 2 is loaded in the disc bottom support 7 in the same manner as in the prior art optical disc accommodating case as described before. Specifically, the optical disc 2 held in a forwardly downwardly tilted state is moved in a forwardly downward direction toward the stem of the disc bottom support 7. When the leading portion of the optical disc 2 strikes the wall 8, the disc 2 has cleared the stoppers 11. By lowering in this state the trailing portion of the optical disc 2 into contact with the disc bottom support 7, the disc 2 is loaded in the disc bottom support 7. Consequently, the optical disc 2 is prevented by the wall 8 and the lock members 9 from being detached toward the stem, and it is also prevented by the stoppers 11 from being detached toward the front end.

[0038] In the case of automatic loading of the optical disc with a robot, as shown in FIGS. 5 and 8, the optical disc 2 is first held at a position above the disc bottom support 7 such that it is parallel thereto. Then, the optical disc 2 is lowered right downward. Then, when the edge of the optical disc 2 strikes the taper portions 9 c of the lock members 9, the end locking portions 9 a pushed by the disc 2 and flexed circumferentially upward with warping of the flexible portions 9 b. The optical disc 2 is continually lowered, and when it strikes the top of the disc bottom support 7, as shown in FIGS. 7 and 10, the end locking portions 9 a no longer receive pushing force by the optical disc 2, and are returned circumferentially inwardly of the disc 2 to restore the initial positions. Thus, the stepped locking surfaces 9 d are thus hooked on the top of the edge of the optical disc 2, and the disc 2 is thus loaded in the disc bottom support 7 so as to be prevented from being detachment. Reference numeral 12 designates notches which are necessary for forming the flexible portions 9 b of the lock members 9.

[0039] When taking out the optical disc 2 from the disc bottom support 7, as in the prior art optical disc accommodating case described above, the disc 2 is taken hold of between the front end portion and the periphery of the center hole 2 a, the front end of the disc 2 is then raised to a height level above the stoppers 11, and in this state the disc 2 is moved in an upwardly slant direction toward the front. In this way, the optical disc 2 can be readily taken out.

[0040]FIG. 11 shows a second embodiment of the optical disc accommodating case according to the invention, which is mainly used for DVD. This optical disc accommodating case 13 has an integral structure, in which a base member 14 and a lid 15 are hinged together along one side such that the lid 15 can open and close the base member 14. On the inner surface of the base member 14, an integral disc holder 16 is disposed such that it is biased by it flexible stem 17 to extend in a forwardly upwardly tilted state toward the space in the base member 14 and that the extending portion is vertically lockable. The disc holder 16 has a disc support 7 of the same structure as in the previous first embodiment for detachably holding an optical disc 2.

[0041] In this optical disc accommodating case 13, when the lid 15 is opened in the state that the optical disc 2 is accommodated in the case, the disc holder 16 is raised by the biasing force of the flexible stem 17 to be held in a state tilted by about 10 to 30 degrees in the space of the base member 14. In this state, the edge of a front end portion of the optical disc 2 and the inner periphery of the center hole of the disc 2 can be readily taken hold of by two fingers without touching the recording surface of the disc 2. The optical disc 2 can be readily taken out from the disc holder 16 by raising the front end of the disc 2 and pulling the disc 2 toward the front end thereof so that the disc 2 clears stoppers 11. Reference numeral 18 designates a substantially cylindrical disc center hole fitting member for preventing detachment of the optical disc 2 from the disc support 7 when a great shock is exerted to the optical disc accommodating case 13. The disc center hole fitting member 18 may be dispensed with if it interferes with the accommodation of an instruction manual or the like inside the lid 15.

[0042]FIG. 12 shows a third embodiment of the optical disc accommodating case according to the invention. In the preceding two embodiments of the optical disc accommodating case, the disc holder has its stem disposed in the case at a fixed position thereof and always held in an upwardly tilted state. In this embodiment of the optical disc accommodating case 19, however, a disc holder 22 is slidably disposed in a casing, which comprises a base member 20 and a lid 21 covering the same, and projects from an opening 23 formed in the casing at the front end thereof.

[0043] The top of the disc holder 22 has a disc bottom support 7, which is the same as in the previous two embodiments, and can detachably hold an optical disc 2. The disc holder top also has a ridge 10 having a cross-sectional profile, which is adapted to be in contact with a non-recording edge part of the optical disc 2 so as not cause damage to the recording part thereof. The disc holder top further has a wall 8 provided on the stem side of the disc bottom support 7 surface such as to be in contact with the edge of the optical disc 2 for preventing the detachment thereof in the stem-ward direction. The wall 8 has three hooks 9 extending above the disc bottom support 7 and co-operating with the ridge 10 to clamp the edge of the optical disc 2 for preventing upward detachment thereof from the top of the disc bottom support 7. The disc bottom support 7 has front end stoppers 11 provided on both sides for preventing detachment of the optical disc 2 in the forward direction. The disc bottom support also has an integral inverse T-shaped front end extension 24. At the front end of the front end extension 24, a lid member 25 for covering the opening 23 is provided as an integral or separate part.

[0044] As shown in FIG. 14, the opposite side inner surfaces of the base member 20, in which the disc holder 22 is slidable, have slightly stepped portions 26 for reducing the area of contact of the disc holder 22 and the base member 20 with each other and thus permitting smoother sliding of the disc holder 22. The opposite side inner surfaces of the lid 21 have four hooks 27 for accommodating a jacket, a liner note, a manual, etc. concerning the accommodated optical disc. The opposite sides of the lid 21 also have guides 28, which each stride the two hooks 27 on each side of the lid 21 and face the opposite side edges of the disc holder 22 slidable in the base member 20 for permitting smooth sliding of the disc holder 22 in the base member 20 over the bottom thereof. The guides 28 each define with the bottom of the base member 20 a guide gap 29 having a width dimension slightly greater than the thickness of the disc holder 22. With the opposite side inner guide gaps 29 having a fixed width dimension formed in the casing, the disc holder 22 slide along the guide gaps 29 without being tilted, rattling or being caught but in a stable state.

[0045] Reference numeral 30 designates an elastic spring part integral with the rear end of the disc holder 22. The spring part 30 is adapted to push the rear end wall of the base member 22 and thus bias the disc holder 22 in the direction to project out of the opening 23. Lest the disc holder 22 should be detached through the opening 23, at least one of the stepped portions 26 has a raised portion formed on the opening side end and thus acts as a stopper. A stepped portion formed in an intermediate part of at least one side wall of the disc holder 22 is adapted to be in contact with the above stopper.

[0046] Referring to FIG. 13, reference numeral 31 designates a lock means for locking the disc holder 22 in the casing. The lock means 31 has a locking portion 32 projecting from one inner side surface of the base member 20 and a lock piece 33 provided on one side of a rear part of the disc holder 22. The lock piece 33 has a stem portion secured to the disc holder 22, and its remainder portion is elongate, flexible and capable of being flexed in the plane of the disc holder 22 when biased. When not biased, the free end of the flexible portion is held hooked on the hooking portion 32.

[0047] Reference numeral 34 designates a lock release member for inwardly pushing the free end of the flexible portion of the lock piece 33. The lock release member 34 is a flexible operable part, which can project into the base member 20 when its finger-touch end portion is pushed. When the free end of the lock release member 34 is pushed in the releasing direction with the disc holder 22 held locked in the base member 20, the free end of the flexible portion having been held locked on the locking portion 32 clears the locking portion 32. Thus, the disc holder 22 which is biased by the spring part 30, projects out of the opening 23. To lock the disc holder 22 in the base member 20, the lid member 25 projecting out of the opening 23 is pushed in the direction of accommodating the disc holder 22. Doing so causes the free end of the flexible portion of the lock piece 33 to be moved along the locking portion 32 while being flexed by the slant side surface thereof until it clears the locking portion, whereupon it no longer receives biasing force of the slant side surface of the locking piece 32. As a result, the free end restores its initial position. Now, the pushing of the disc holder 22 into the base member 20 may be discontinued, while the end of the flexible portion has been held locked on the locking portion 32. Thus, the disc holder 22 is held in its locked state in the base member 20.

[0048] FIGS. 15 to 21 show a fourth embodiment of the optical disc accommodating case according to the invention. This optical disc accommodating case 35, like the previous second embodiment, is mainly used for DVD, and particularly it has a construction, which is made more suitable to the robot operation of the assembling process which is important for this type of optical disc accommodating case. In the robot operation of the assembling process of accommodating an optical disc in an optical disc accommodating case and packing the resultant case, the disc holder should pass through a gap with a height of about 10 mm in a state that a lid is held open. This means that the front end of the disc holder should not be raised from the base member top. This embodiment meets this requirement. Nevertheless, the embodiment has a construction capable of being readily handled by the user in that the front end of the disc holder is vertically moved as the lid is opened and closed.

[0049] The optical disc accommodating case 35 has an integral structure, in which a base member 36 and a lid 37 are hinged together along one side such that the lid 37 can open and close the base member 36. The base member 36 has two lock members 39 formed on its inner surface for detachably engaging with two portions of the front end of the disc holder 38. The base member 36 also has two engaging members 40 formed on its inner surface for detachably engaging with opposite side portions of the stem 38 a of the disc holder 38, which is separate from the base member 36. By lowering the disc holder 38 as shown in FIG. 16, its front end and stem 38 a can be readily engaged with the lock members 39 and the engagement members 40, respectively. Reference numeral 41 designates a stopper member provided on the inner surface of the base member 36 to prevent excessive downward flexing of the disc holder 38. The stopper member 36 is disposed at a position to be in contact with the bottom surface of the front end of the disc holder 38.

[0050] The lock members 39 each have a partly arched wall structure having a locking pawl formed on the inner side, and also have a function of reliably preventing the accommodated optical disc from being detached in the forward direction by a shock or the like with the front end of the disc holder 38 held engaged with the lock members 39. When the person who bought the optical disc opens the optical disc accommodating case 35 and pushes the stem 38 a of the disc holder 38 in the state shown in FIG. 17 to the right, the disc holder 38 as a whole is slightly moved to the right, and its front end is detached from the lock members 39 so that it is raised. Specifically, in the state that the stem 38 a of the disc holder 38 is engaged with the engagement members 40, like each of the above embodiments, the disc holder 38 which is vertically lockable about its flexible stem 38 a as fulcrum, is extends in a forwardly upwardly tilted state at an angle of 10 to 30 degrees.

[0051] Once the front end of the disc holder 38 has been detached form the lock members 39, by opening the lid 37 it is raised to facilitate the accommodation and take-out of the optical disc, and by closing the lid 37 it is downwardly tilted so that the disc holder 38 is suitably accommodated. The other components than those described above, i.e., disc bottom support 7, wall 8, lock members 9 having locking end portions 9 a, flexible portions 9 b, taper portions 9 c and stepped locking surface 9 d, ridge 10 and stoppers 11, are the same as in the other embodiments described before. However, while in the other embodiments three lock members 9 are formed on the wall 8, in this embodiment only two, i.e., left and right, lock members are provided to simplify the construction. Even with the two lock members 9, it is possible to sufficiently prevent the upward detachment of the optical disc. In addition, when locking end portions 9 a are touched by the edge of the lowered optical disc 2, they are flexed circumferentially of the disc, while the locking portions 9 d at the lower end of the taper portions 9 c prevent upward detachment of the optical disc having been once locked.

[0052] FIGS. 19 to 21 show a disc retainer structure for preventing the detachment of the accommodated disc 2 from the disc holder 38 due to a shock of fall or the like, if any, in the state that the base member 36 is held covered by the lid 37. As shown in FIGS. 19 and 20, two disc retainer members 42 are provided on a back portion of the inner surface of the optical disc accommodating case 35 and a front end portion of the lid 37. In the state that the base member 36 is covered by the lid 37, as shown in FIG. 21, opposite end portions of the optical disc 2 are held downwards, whereby detachment of the optical disc 2 from the disc holder 38 can be reliably prevented.

[0053] While the above embodiments have been described in connection with the structure that the flexible portions 9 b of the lock members 9 extend in lateral direction parallel to the top of the disc bottom support 7, but other structures are also conceivable. Specifically, it is also possible to conceive a structure that the flexible portions 9 b of the lock members 9 extend upright from the top of the disc bottom support 7 such as to be flexible in the vertical direction. However, for securing sufficient flexibility of the flexible portions, a certain fixed length is necessary. With the structure that the flexible portions extend in the lateral direction, it is possible to freely set the length of the flexible portions. With the flexible portions extending upright, however, limitation is imposed by the thickness direction dimension of the inner space of the casing, and it is difficult to ensure sufficient length. Thus, it is preferable to adopt the structure that the flexible portions 9 b of the lock members 9 extent in the lateral direction parallel to the top of the disc bottom support 7 as in the above individual embodiments.

[0054] As has been described in the foregoing, according to the invention an excellent optical disc accommodating case can be obtained, which permits conveniently taking hold of optical disc, permits very readily taking out and accommodating the disc and permits readily taking out and accommodating the optical disc without possibility of causing damage to the important center hole of the disc. In addition, it is possible to realize automatic loading of the optical disc in an assembling process, thus greatly logical the assembling process.

[0055] The optical disc accommodating case comprises the casing having the lid capable of being opened and closed and the disc holder, which can removably hold the optical disc in the casing and is flexible such that its stem is held in the casing and that it is vertically lockable to be held in an upwardly tilted state toward the front in the casing. The front end of the disc holder is thus vertically lockable in response to the opening and closing of the lid of the casing, and the casing has the lock members for detachably holding the front end of the disc holder on the bottom of the casing. The optical disc accommodating case thus can be reliably applied to an assembling process by a robot, in which the optical disc is assembled in the optical disc accommodating case by causing the front end of the disc holder to be locked on the lock members. Also, a construction is obtainable, which can be conveniently used by the user such that the front end of the disc holder is vertically rocked in response to the opening and closing of the lid.

[0056] Furthermore, the disc holder has the wall, which is provided on the stem side and can hold the corresponding side of the accommodated optical disc, and also has the stoppers, which is provided on the side opposite the wall and permits the disc to be freely taken out in an upwardly slant direction while preventing detachment of the disc in the horizontal direction. Thus, the optical disc accommodated in the optical disc accommodating case can be reliably held without possibility of occasionally detached in the horizontal direction, and can also be readily taken out by moving it in an upwardly slant direction such that it clears the stoppers.

[0057] Further, the wall has the lock members provided at its opposite ends for preventing upward detachment of the optical disc, and lower portions of the end portions of the wall are cut away to separate the end portions from the disc bottom support such that the end locking portions of the lock members can be freely brought into contact with and spaced apart from the edge of the optical disc. It is thus possible to set the length of the flexible portions of the lock members as desired so that the lock members are softly flexed to permit suitable loading of the optical disc.

[0058] Further, the end locking portions of the lock members have taper portions tapering downward toward the inner periphery of the optical disc. When the optical disc being lowered toward the optical disc accommodating case strikes the taper portions, the end locking portions are readily flexed toward the outer periphery to reliably guide the disc to the disc bottom support.

[0059] Further, the taper portions of the end locking portions have the stepped bottom surfaces extending substantially parallel with the accommodated optical disc top. Thus, when the optical disc being lowered toward the optical disc accommodating case clears the taper portions of the end locking portions, its edge is locked by the bottom surfaces of the taper portions and prevented from being upwardly detached.

[0060] Further, the disc holder can slide in the casing and project from the opening of the casing formed on the front end side of the optical disc. Thus, the optical disc can be taken out without need of operation of opening the lid of the casing with both hands. 

What is claimed is:
 1. An optical disc accommodating case comprising a casing, and a disc holder for detachably holding an optical disc in the casing, the disc holder having a disc bottom support and also having one end secured to the inside of the casing and a portion extending such as to be held in an upwardly tilted state toward the other end in the space of the casing, the extending portion being flexible and vertically lockable, the disc bottom support having a wall to be in contact with the edge of the optical disc for preventing detachment thereof in the horizontal direction thereof, the wall having lock members for preventing upward detachment of the optical disc, the lock members being capable of being warped toward the outer periphery so as to permit the optical disc to be accommodated in the downward direction in the disc bottom support.
 2. An optical disc accommodating case comprising a casing having a lid capable of being opened and closed, and a disc holder for detachably holding an optical disc in the casing, the disc holder being flexible such that its stem portion is held in the casing and having a portion extending such as to be held in an upwardly tilted state toward the other end in the space of the casing, the disc holder having the front end capable of being vertically rocked in response to the opening and closing of the lid of the casing, the casing having a lock member for detachably holding the front end of the disc holder on the bottom of the casing.
 3. The optical disc accommodating disc according to claim 2, wherein the disc holder has a disc bottom support having a wall to be in contact with the edge of an optical disc for preventing detachment of the optical disc in the horizontal direction, the wall having lock members for preventing upward detachment of the optical disc, the lock members being capable of being warped toward the outer periphery so as to permit the optical disc to be accommodated in the downward direction in the disc bottom support.
 4. The optical disc accommodating case according to one of claims 1 and 3, wherein the wall having the hook members are formed on one end of the disc holder and capable of holding one end of the optical disc, the disc holder also having stoppers provided on the other end for preventing detachment of the optical disc in the horizontal direction while permitting the optical disc to be freely taken out in an upwardly slant direction.
 5. The optical disc accommodating case according to one of claims 1 and 3, wherein the lock members for preventing upward detachment of the optical disc are formed on the wall at the ends thereof, and lower potions of the end portions of the wall are cut away so that the end portions are spaced apart from the disc bottom support and that the end locking portions for locking the edge of the disc can be brought into contact with and separated from the edge of the disc.
 6. The optical disc accommodating case according to one of claims 1 and 3, wherein the end locking portions of the lock members have taper portions tapering downward toward the inner periphery of the optical disc.
 7. The optical disc accommodating case according to claim 5, wherein the taper portions of the end locking portions have stepped bottom surfaces substantially parallel with the accommodated optical disc top.
 8. The optical disc accommodating case according to claim 1, wherein the disc holder is capable of sliding in the casing and projecting out of an opening formed in the casing at an end thereof in the front end side of the optical disc. 